Gene
ndufab1b
- ID
- ZDB-GENE-030131-4437
- Name
- NADH:ubiquinone oxidoreductase subunit AB1b
- Symbol
- ndufab1b Nomenclature History
- Previous Names
-
- ndufab1
- wu:fd05g01
- Type
- protein_coding_gene
- Location
- Chr: 3 Mapping Details/Browsers
- Description
- Predicted to enable acyl binding activity and acyl carrier activity. Predicted to act upstream of or within fatty acid biosynthetic process. Predicted to be part of respiratory chain complex I. Predicted to be active in mitochondrion. Orthologous to human NDUFAB1 (NADH:ubiquinone oxidoreductase subunit AB1).
- Genome Resources
- Note
- None
- Comparative Information
-
- All Expression Data
- 1 figure from Thisse et al., 2004
- Cross-Species Comparison
- High Throughput Data
- Thisse Expression Data
-
- IMAGE:7146604 (1 image)
Wild Type Expression Summary
- All Phenotype Data
- No data available
- Cross-Species Comparison
- Alliance
Phenotype Summary
Mutations
No data available
Human Disease
Domain, Family, and Site Summary
Domain Details Per Protein
| Protein | Length | ACP-like superfamily | Acyl carrier protein | Phosphopantetheine attachment site | Phosphopantetheine binding ACP domain |
|---|---|---|---|---|---|
|
UniProtKB:F1QCE9
|
153 |
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| Type | Name | Annotation Method | Has Havana Data | Length (nt) | Analysis |
|---|---|---|---|---|---|
| mRNA |
ndufab1b-201
(1)
|
Ensembl | 1,537 nt | ||
| mRNA |
ndufab1b-202
(1)
|
Ensembl | 663 nt |
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Interactions and Pathways
No data available
Plasmids
No data available
No data available
| Relationship | Marker Type | Marker | Accession Numbers | Citations |
|---|---|---|---|---|
| Contained in | BAC | DKEY-18H21 | ZFIN Curated Data | |
| Encodes | EST | fd05g01 | ||
| Encodes | EST | IMAGE:7146604 | Thisse et al., 2004 |
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| Type | Accession # | Sequence | Length (nt/aa) | Analysis |
|---|---|---|---|---|
| RNA | RefSeq:NM_001305570 (1) | 700 nt | ||
| Genomic | GenBank:BX511029 (1) | 151867 nt | ||
| Polypeptide | UniProtKB:F1QCE9 (1) | 153 aa |
- Lee, J.Y., Park, H., Lim, W., Song, G. (2021) Aclonifen causes developmental abnormalities in zebrafish embryos through mitochondrial dysfunction and oxidative stress. The Science of the total environment. 771:145445
- Bayés, À., Collins, M.O., Reig-Viader, R., Gou, G., Goulding, D., Izquierdo, A., Choudhary, J.S., Emes, R.D., Grant, S.G. (2017) Evolution of complexity in the zebrafish synapse proteome. Nature communications. 8:14613
- Braasch, I., Gehrke, A.R., Smith, J.J., Kawasaki, K., Manousaki, T., Pasquier, J., Amores, A., Desvignes, T., Batzel, P., Catchen, J., Berlin, A.M., Campbell, M.S., Barrell, D., Martin, K.J., Mulley, J.F., Ravi, V., Lee, A.P., Nakamura, T., Chalopin, D., Fan, S., Wcisel, D., Cañestro, C., Sydes, J., Beaudry, F.E., Sun, Y., Hertel, J., Beam, M.J., Fasold, M., Ishiyama, M., Johnson, J., Kehr, S., Lara, M., Letaw, J.H., Litman, G.W., Litman, R.T., Mikami, M., Ota, T., Saha, N.R., Williams, L., Stadler, P.F., Wang, H., Taylor, J.S., Fontenot, Q., Ferrara, A., Searle, S.M., Aken, B., Yandell, M., Schneider, I., Yoder, J.A., Volff, J.N., Meyer, A., Amemiya, C.T., Venkatesh, B., Holland, P.W., Guiguen, Y., Bobe, J., Shubin, N.H., Di Palma, F., Alföldi, J., Lindblad-Toh, K., Postlethwait, J.H. (2016) The spotted gar genome illuminates vertebrate evolution and facilitates human-teleost comparisons. Nature Genetics. 48(4):427-37
- Ma, A.C., McNulty, M.S., Tanya, P.L., Jarryd, C.M., Martínez-Gálvez, G., Argue, D.P., Lee, H.B., Urban, M.D., Bullard, C.E., Blackburn, P.R., Man, T.K., Clark, K.J., Ekker, S.C. (2016) FusX: A rapid one-step TALE assembly system for genome science. Human gene therapy. 27(6):451-63
- Elkon, R., Milon, B., Morrison, L., Shah, M., Vijayakumar, S., Racherla, M., Leitch, C.C., Silipino, L., Hadi, S., Weiss-Gayet, M., Barras, E., Schmid, C.D., Ait-Lounis, A., Barnes, A., Song, Y., Eisenman, D.J., Eliyahu, E., Frolenkov, G.I., Strome, S.E., Durand, B., Zaghloul, N.A., Jones, S.M., Reith, W., Hertzano, R. (2015) RFX transcription factors are essential for hearing in mice. Nature communications. 6:8549
- Zheng, J.L., Luo, Z., Zhu, Q.L., Tan, X.Y., Chen, Q.L., Sun, L.D., and Hu, W. (2013) Molecular cloning and expression pattern of 11 genes involved in lipid metabolism in yellow catfish Pelteobagrus fulvidraco. Gene. 531(1):53-63
- Willaert, A., Khatri, S., Callewaert, B.L., Coucke, P.J., Crosby, S.D., Lee, J.G., Davis, E.C., Shiva, S., Tsang, M., De Paepe, A., and Urban, Z. (2012) GLUT10 is required for the development of the cardiovascular system and the notochord and connects mitochondrial function to TGFβ signaling. Human molecular genetics. 21(6):1248-1259
- Williams, C.M., Feng, Y., Martin, P., and Poole, A.W. (2011) Protein kinase C alpha and beta are positive regulators of thrombus formation in vivo in a zebrafish (Danio rerio) model of thrombosis. Journal of thrombosis and haemostasis : JTH. 9(12):2457-65
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